CN102157843A - Connector - Google Patents

Abstract

A connector has an inner housing with a cavity for housing a terminal fitting, an outer housing assembled displaceably to the inner housing and a rubber plug. The rubber plug has a sealing portion, a vibration reducing portion and a vibration absorbing portion. The sealing portion is mounted fixedly on a rear end portion of the terminal fitting and is brought into close contact with an inner peripheral surface of the cavity. The vibration reducing portion is fit in a holding hole formed in the outer housing and thus is displaced with the outer housing. The vibration absorbing portion has a smaller thickness than the vibration reducing portion and connects the sealing portion to the vibration reducing portion. The vibration absorbing portion is outside the holding hole and in front of the holding hole.

Description

Connector

Technical field

The present invention relates to a kind of connector.

Background technology

JP-A-2009-093896 discloses a kind of connector, and connector has the housing that has the terminal keeper.The terminal keeper has cavity, and clamped nipple is contained in the described cavity.Be wired to clamped nipple, and export to the position of terminal keeper back.Vibration-damped component is assembled into the terminal keeper, and can be shifted along the direction that the longitudinal direction with electric wire intersects with respect to the terminal keeper.Vibration-damped component has retaining hole in the cavity back, and electric wire passes retaining hole.The cylindrical shape rubber plug is assemblied on the electric wire, and has the sealing on the rearward end that is fixedly mounted on clamped nipple.Make rubber plug form tight the contact hermetically with the interior perimeter surface of cavity.Vibration weakening portion is assemblied in the retaining hole, and absorption of vibrations portion is connected to sealing in the vibration weakening portion, and has than vibration weakening portion or the little wall thickness of sealing.

The vibration weakening portion of rubber plug is assemblied on the electric wire, and vibration-damped component keeps vibration weakening portion.Therefore, when conductor vibration, vibration weakening portion and vibration-damped component integral shift.The part of the vibrational energy of electric wire is absorbed as kinetic energy and is absorbed, and is used for the displacement of vibration weakening portion and vibration-damped component.Therefore, the vibration that is delivered to clamped nipple by rubber plug from electric wire is subdued.In addition, when the vibration of subduing when vibration weakening portion is delivered to sealing, the part of the vibration of subduing is absorbed by absorption of vibrations portion, therefore, can effectively subdue the vibration that is delivered to clamped nipple.Therefore, suppressed trickle skimming wear in the contact between clamped nipple and the counterpart terminal.

In above-mentioned connector, the rear end of vibration weakening portion, absorption of vibrations portion and sealing is arranged in the retaining hole of vibration-damped component.Therefore, the rear end of sealing can vibrate with the displacement of absorption of vibrations portion and vibration-damped component, to subdue vibration.Therefore, absorption of vibrations portion may not show sufficient absorption of vibrations function.

Summary of the invention

In view of the foregoing make the present invention, the purpose of this invention is to provide one and can more effectively subdue the connector that is delivered to the vibration of clamped nipple from electric wire.

The present invention relates to a kind of connector, described connector has: housing is installed in the clamped nipple on the described housing and is installed in rubber plug on the described housing.Described housing comprises the terminal keeper that is used to receive clamped nipple.Electric wire is fixed to described clamped nipple, and exports to the position of cavity back.Vibration-damped component is assembled on the terminal keeper, and can be shifted along the direction that the longitudinal direction with electric wire intersects with respect to the terminal keeper.Vibration-damped component has the retaining hole that is arranged on the cavity back, and electric wire can pass retaining hole.Rubber plug has columnar shape, and is assemblied on the electric wire.Rubber plug has the whole main body that has sealing, and sealing is fixedly mounted on the rearward end of clamped nipple and with the interior perimeter surface of cavity and forms tight the contact hermetically.Vibration weakening portion is assemblied in the retaining hole, therefore can be with the vibration-damped component integral shift.Absorption of vibrations portion connects the rear end of sealing and the front end of vibration weakening portion, and thinner than vibration weakening portion.Absorption of vibrations portion is in the outside of retaining hole and in the front of retaining hole.

Electric wire may vibrate.Yet the vibrational energy of electric wire is owing to the integral shift of vibration weakening portion and vibration-damped component is subdued.When vibration when vibration weakening portion is delivered to sealing, the part of the vibration of subduing is absorbed by absorption of vibrations portion.Absorption of vibrations portion is in the outside of retaining hole and in the front of retaining hole.As a result, absorption of vibrations portion does not directly contact vibration-damped component, and the displacement of vibration-damped component is not directly delivered to sealing.Therefore, absorption of vibrations portion shows sufficient absorption of vibrations function, and the vibration that is delivered to clamped nipple from electric wire is by more effective subduing.

At least a portion of absorption of vibrations portion can be in cavity.Therefore, impurity can not interfered with absorption of vibrations portion, and can the leading-in terminal keeper and vibration-damped component between the gap in.

The external diameter of absorption of vibrations portion can make absorption of vibrations portion not contact the interior perimeter surface of cavity less than the external diameter of sealing.

Absorption of vibrations portion absorbs vibration by strain, but does not contact with the interior perimeter surface of cavity.Therefore, absorption of vibrations portion shows high absorption of vibrations function.

Absorption of vibrations portion can have bellows-shaped, with strain and show high absorption of vibrations function.

Limited part can be formed on the periphery of interior week of retaining hole and vibration weakening portion, to weaken the vertical shift of portion with respect to retaining hole by concavo-convex assembling constrained vibration.Therefore, can guarantee the location of retaining hole and vibration weakening portion.

Description of drawings

Fig. 1 is the front view according to the connector of embodiment 1.

Fig. 2 is the rearview of connector.

Fig. 3 is the sectional view of connector.

Fig. 4 is the sectional view that the state that vibration subdued is shown.

Fig. 5 is the sectional view along the connector of the intercepting of the line X-X among Fig. 1.

Fig. 6 is the front view of shell body (vibration-damped component).

Fig. 7 is the sectional view along the connector of the intercepting of the line Y-Y among Fig. 6.

Fig. 8 is a side of inner housing (terminal keeper).

Fig. 9 is the sectional view of rubber plug.

Embodiment

Connector according to the present invention has the housing of being represented by Reference numeral 10 in Fig. 1 to 5.Housing 10 comprises: as the block inner housing 11 of terminal keeper; With shell body 20 as vibration-damped component.In the present embodiment, inner housing 11 and shell body 20 are made by synthetic resin.Connector also comprises clamped nipple 30 and the rubber plug of inserting in the housing 10 40.

Cavity 12 passes inner housing 11 along the longitudinal direction, and is set parallel to each other along horizontal direction.The front portion of cavity 12 (left side among Fig. 3 and 4) limits terminal spatial accommodation 13, is used to hold clamped nipple 30.The rear portion of cavity 12 limits cylindrical seal hole 14.

On the position slightly backward of the longitudinal center of inner housing 11, form the flange 15 that outwards protrudes continuously around the periphery of inner housing 11.In addition, waterproof seal ring 18 is installed on the periphery of inner housing 11, is used to the gap between interior week of the cover that is sealed in the periphery of inner housing 11 and cooperates the housing (not shown).Sealing ring 18 is formed with the front surface of flange 15 contact, with the displacement backward of restriction sealing ring 18.In an identical manner, the elastic keeper 19 of annular is installed on the periphery of inner housing 11, is used for the relation of the position between inner housing 11 and the shell body 20 is remained on initial condition.Elastic keeper 19 is formed with the rear surface of flange 15 contact, elastic keeper 19 shifts forward with restriction.

On near the position the rear end of inner housing 11, left and right sides bump bonding 16 protrudes from the left and right sides outer surface symmetry of inner housing 11.Bump bonding is used for inner housing 11 and shell body 20 are remained on assembled state.Arc nonreentrant surface 17 is formed on the front surface of bump bonding 16, and has the arc of semicircle when along transverse observation.The arc center of the arc nonreentrant surface 17 in the left and right sides is arranged on the identical axis.

The cylindrical shape fit engagement portion 22 that shell body 20 has block-shaped main body 21 and extends forward from main body 21.

Lock arm 23 is formed in the cylindrical shape fit engagement portion 22, and extends on direction forward along the upper surface wall of cylindrical shape fit engagement portion 22.Locking projections (not shown) on the lock arm 23 engaged fit housings is to remain on the fit engagement state with housing 10 and cooperation housing.Conjugate foramen 24 symmetries in the left and right sides are passed the left and right sides of cylindrical shape fit engagement portion 22, shown in Fig. 5 and 7, are used for inner housing 11 and shell body 20 are remained on assembled state.It is recessed surperficial 25 that the leading edge of conjugate foramen 24 forms semicircle, and described semicircle recessed surperficial 25 has the radius of curvature identical with the radius of curvature of arc nonreentrant surface 17.

The front surface indentation of main body 21 forms recess 26, and described recess communicates with the rear end in space in being formed on cylindrical shape fit engagement portion 22.The vertical dimension of recess 26 surpasses the vertical dimension of the rearward end of inner housing 11, and the lateral dimension of recess 26 is equal to or slightly greater than the lateral dimension of the rearward end of inner housing 11.Three parallel retaining holes 27 are arranged on main body 21 in a lateral direction, and 21 rear end surface passes main body 21 from recess 26 to main body.Retaining hole 27 is arranged on the position corresponding with cavity 12 in the inner housing 11.Each retaining hole 27 has circular cross sectional shape, and limited part 28 along the circumferential direction extends continuously around the interior perimeter surface of each retaining hole 27.

Inner housing 11 and shell body 20 are assembled into the big displacement that makes between the fit engagement restriction housing 11 and 20 of bump bonding 16 and conjugate foramen 24 along the longitudinal direction.On vertically big displacement between inner housing 11 and the shell body 20 also is limited in bump bonding 16 and position that conjugate foramen 24 engages.In addition, the lateral dimension of inner housing 11 and recess 26 equates basically, so the relative displacement along horizontal direction is limited between inner housing 11 and the shell body 20.

Shown in Fig. 3 and 4, when inner housing 11 and shell body 20 were in assembled state, in the recess 26 of a part at shell body 20 of the inner housing 11 of elastic keeper 19 back, retaining hole 27 was in the back of cavity 12.Zone at the inner housing 11 of recess 26 fronts is centered on by cylindrical shape fit engagement portion 22.In addition, under the compressed along the longitudinal direction elastic deformation of elastic keeper 19, elastic keeper 19 is clipped between the rear surface of stopper section 29 and flange 15, and described stopper section 29 is formed on the interior week of cylindrical shape fit engagement portion 22 along the edge of opening of recess 26.In addition, usually, elastic keeper 19 elastic restoring force under normal circumstances remains on the initial condition (see figure 3) with inner housing 11 and shell body 20, and under described state, the closed hole 14 of cavity 12 and retaining hole 27 be co-axially align along the longitudinal direction basically.

The inner housing 11 and the shell body 20 of assembling can incline towards each other about the axis of imaginaries of horizontal expansion, when making arc nonreentrant surface 17 and arcuate concave surface 25 form sliding contact each other, described axis of imaginaries is by the arc center on arc nonreentrant surface 17 and arcuate concave surface 25.Therefore, the direction that can intersect along longitudinal direction of the front and back end of inner housing 11 and shell body 20 vertical moving relative to each other with electric wire 35.Therefore the vertical dimension of the rearward end of inner housing 11, has no problem the displacement of inner housing 11 and shell body 20 vertical banks less than the vertical dimension of recess 26.

Shown in Fig. 3 and 4, clamped nipple 30 is elongated along the longitudinal direction cloudy terminals.Square tubular terminal connecting portion 31 is formed on the front end of clamped nipple 30, and can receive the tab that cooperates the mating terminals (not shown) in the housing 10, makes terminal connecting portion 31 and tab interconnect with electrically conducting manner.In addition, electric wire connecting portion 32 is formed on the rear end of clamped nipple 30.The leading section of electric wire 35 is connected to electric wire connecting portion 32 by pressure combination or crimping in the mode of conducting electricity.The front end of rubber plug 40 also is installed on the electric wire connecting portion 32 with electric wire 35 by pressure combination or crimping.

Clamped nipple 30 passed the retaining hole 27 of shell body 20 from behind and pass the closed hole 14 of cavity 12, and be inserted in the terminal shell space 13.The clamped nipple that correctly inserted in the terminal shell space 13 30 and the front surface of cavity 12 are kept in touch, move forward so that prevent clamped nipple 30.Therefore, the conjugation that is formed on the lance bar 33 on the terminal connecting portion 31 prevents clamped nipple removing backward.When correctly being contained in clamped nipple 30 in the terminal shell space 13, electric wire 35 is exported on the position of inner housing 11 back.

Shown in Fig. 3,4 and 9, rubber plug 40 is the elongated tubulars with axis direction along the longitudinal direction.As mentioned above, the front portion of rubber plug 40 is fixedly mounted on the electric wire connecting portion 32 of clamped nipple 30 with electric wire 35.Therefore, the whole length of rubber plug 40 is assemblied on the electric wire 35.Rubber plug 40 whole formation, and comprise sealing 41, vibration weakening portion 44 and absorption of vibrations portion 46.Sealing 41 shows water-proof function, is used for the gap between the periphery of interior week of seal chamber 12 and electric wire 35.Vibration weakening portion 44 shows the vibration that is used for subduing vibration when electric wire 35 vibration and subdues function.Absorption of vibrations portion 46 is configured to connect the rear end of sealing 41 and the front end of vibration weakening portion 44, and shows the absorption of vibrations function that is used for absorbing vibration when electric wire 35 vibrations.

Parallel peripheral lip 42 is around the periphery circumferential extension of sealing 41.The external diameter of each peripheral lip 42 rubber plug 40 not during strain less times greater than the internal diameter of the closed hole 14 of inner housing 11.In addition, parallel interior all antelabium 43 are around interior all circumferential extensions of sealing 41.Not during strain, the internal diameter of interior all antelabium 43 is slightly less than the external diameter of electric wire 35 in rubber plug 40.Therefore, under the state of elastic deflection, interior all antelabium 43 closely contact with sealing means with the periphery of electric wire 35.

Vibration weakening portion 44 has columnar substantially shape, has the internal diameter and the external diameter of basically identical along the length of vibration weakening portion 44.The external diameter of vibration weakening portion 44 equals or is slightly smaller than the internal diameter of retaining hole 27, and the internal diameter of vibration weakening portion 44 is approximately equal to the external diameter of electric wire 35.Confinement groove 45 is around the periphery circumferential extension of vibration weakening portion 44.

As shown in Figure 9, absorption of vibrations portion 46 has the wall thickness littler than the wall thickness of vibration weakening portion 44, and has bellows-shaped.Thin-walled and fluxion structure make that absorption of vibrations portion 46 can be than the easier strain along the longitudinal direction of vibration weakening portion 44, and can easier strain make that the axis of absorption of vibrations portion 46 can be crooked.The maximum outside diameter of absorption of vibrations portion 46 is less than the maximum outside diameter of sealing 41, less than the internal diameter of closed hole 14, and less than the external diameter of vibration weakening portion 44.The minimum diameter of absorption of vibrations portion 46 is greater than the external diameter of electric wire 35.In addition, the length that goes up along the longitudinal direction of absorption of vibrations portion 46 is approximately equal to the respective length that goes up along the longitudinal direction of sealing 41 and vibration weakening portion 44.

When inner housing 11 with shell body 20 is assembled into together and when inserting clamped nipple 30 in the cavitys 12, the whole sealing 41 of rubber plug 40 is positioned at about central area of sealing 14 in a longitudinal direction.The leading section of rubber plug 40 is fixedly mounted on the clamped nipple 30.Therefore, when correctly inserting clamped nipple 30 in the cavitys 12, near the sealing 41 the front end of rubber plug 40 can not the bigger displacement along the longitudinal direction of closed hole 14.Under elastic deformation, make that the peripheral lip 42 on the periphery of sealing 41 forms tight the contact hermetically with the interior perimeter surface of closed hole 14.

When with clamped nipple 30 is correct when inserting in the cavitys 12, whole absorption of vibrations portion 46 is in the rear portion of closed hole 14.Therefore, absorption of vibrations portion 46 is positioned at the outside and the front of retaining hole 27.In addition, the external diameter of absorption of vibrations portion 46 is less than the internal diameter of closed hole 14, therefore forms the gap on the whole circumference between the interior week of the periphery of absorption of vibrations portion 46 and closed hole 14.

Roughly whole vibration weakening portion 44 is positioned at retaining hole 27.Vibration weakening portion 44 in retaining hole relatively radial displacement (for example, the horizontal direction that intersects along axis or the displacement of vertical direction) with electric wire 3 be able to limited.Therefore, the direction that can intersect along the longitudinal direction with electric wire 35 of vibration weakening portion 44 is with respect to inner housing 11 and shell body 20 integral shifts.Equally, joint between the restriction of retaining hole 27 inside projection 28 and confinement groove 45 has limited vibration weakening portion 44 relatively moving along the longitudinal direction.As mentioned above, rubber plug 40 is located along the longitudinal direction with respect to housing 10.

As shown in Figure 4, when electric wire 35 vertically vibrated, the vibration weakening portion 44 of shell body 20 and rubber plug 40 was with respect to inner housing 11 integral inclinations, and the vibrational energy of electric wire 35 is subdued by relative displacement.The vibration of being subdued by vibration weakening portion 44 and shell body 20 is delivered to sealing 41 by absorption of vibrations portion 46 from vibration weakening portion 44.Yet the part of the vibration of transmission is absorbed by absorption of vibrations portion 46.Absorption of vibrations portion 46 is in the outside of retaining hole 27, and in the front of retaining hole 27, this is to make absorption of vibrations portion 46 and shell body 20 form direct position contacting.Therefore, sealing 41 can not form with shell body 20 yet and directly contact.Because such structure, the displacement of shell body 20 can not be directly delivered to sealing 41.Therefore, absorption of vibrations portion 46 can fully show the absorption of vibrations function, and the vibration that therefore is delivered to clamped nipple 30 from electric wire 35 can more effectively be subdued.

In addition, whole absorption of vibrations portion 46 makes absorption of vibrations portion 46 be protected in cavity 12, avoids external interference.Therefore, even impurity is invaded between inner housing 11 and the shell body 20, impurity also can not be interfered absorption of vibrations portion 46.

The strain of absorption of vibrations portion 46 absorbs vibration.The external diameter of absorption of vibrations portion 46 is less than the external diameter of sealing 41.Therefore, absorption of vibrations portion 46 does not contact the interior perimeter surface of cavity 12, and the interior Zhou Buhui of cavity 12 hinders the vibration of absorption of vibrations portion 46.As a result, absorption of vibrations portion 46 can show high absorption of vibrations function.In addition, absorption of vibrations portion 46 has bellows-shaped, so the easy strain of absorption of vibrations portion 46 energy, thereby helps the high absorption of vibrations function of absorption of vibrations portion 46.

In addition, the restriction on the interior week of retaining hole 27 projection 28 by the confinement groove 45 of concavo-convex fit engagement on the periphery of vibration weakening portion 44 in, described concavo-convex assembling constrained vibration weakens portion 44 longitudinal direction along electric wire 35 in retaining hole 27 and is shifted.Therefore, vibration weakening portion 44 is accurately positioned in the retaining hole 27.

In addition, between the interior perimeter surface of the outer surface of vibration weakening portion 44 and retaining hole 27, form little gap, and between restriction projection 28 and confinement groove 45, form little gap.Therefore, even when water immerses between inner housing 11 and the shell body 20, water can be discharged to the position (outside of housing 10) of housing 10 back from the gap between vibration weakening portion 44 and the retaining hole 27.

The invention is not restricted to the embodiment in conjunction with above-mentioned explanation and accompanying drawing explanation, the present invention also is included in the following execution mode in the technical scope of the present invention.

In the above-described embodiments, the junction surface (lock arm) that cooperates housing to engage is formed on the vibration-damped component, and vibration-damped component is also as being fitted into the assembly parts that cooperate in the housing.Yet vibration-damped component can not contact with the pairing housing, and is configured for vibrating the professional component of subduing.

In the above-described embodiments, at least a portion of absorption of vibrations portion is in cavity.Yet whole absorption of vibrations portion can be in the cavity outside.

In the above-described embodiments, absorption of vibrations portion has bellows-shaped.Yet absorption of vibrations portion can be the cylinder that has fixed outer diameter and fixed inner diameter on its whole length.

In the above-described embodiments, the external diameter of absorption of vibrations portion makes absorption of vibrations portion not contact the interior perimeter surface of cavity less than the external diameter of sealing.Yet, when carrying out the absorption of vibrations operation, at least a portion of the periphery of absorption of vibrations portion can contact the interior perimeter surface of cavity, and perhaps when not carrying out the absorption of vibrations operation, at least a portion of the periphery of absorption of vibrations portion can form with the interior perimeter surface of cavity and contact.

In the above-described embodiments, the displacement of vibration weakening portion in retaining hole is by the concavo-convex assembling restriction between the restrictions.Yet vibration weakening portion can be configured to there is not such restricted part, makes vibration weakening portion carry out in retaining hole the relative displacement along the electric wire axial direction.

In the above-described embodiments, the present invention is applied to hold the female connector of female terminal fitting, is an example that is used herein to explanation.Yet, also can be applied to hold the male connector of male side terminal fitting in this present invention.

Claims (11)

1. connector comprises:

Housing (10), described housing (10) has terminal keeper (11) and vibration-damped component (20), described terminal keeper (11) has cavity (12), described vibration-damped component (20) is assembled to described terminal keeper (11) in displaceable mode, and described vibration-damped component (20) has the retaining hole (27) that is arranged on described cavity (12) back;

Clamped nipple (30), described clamped nipple (30) are installed in the described cavity (12) of described terminal keeper (11);

Electric wire (35), described electric wire (35) is fixed to described clamped nipple (30), and exports to and be positioned at described cavity (12) afterwards and be positioned at described retaining hole (27) position afterwards; And

Be assemblied in the tubular rubber plug (40) on the described electric wire (35), described tubular rubber plug (40) has sealing (41), vibration weakening portion (44) and absorption of vibrations portion (46); Described sealing (41) is fixedly mounted on the rearward end of described clamped nipple (30), and closely contacts with sealing means with the interior perimeter surface of described cavity (12); Described vibration weakening portion (44) is assemblied in the described retaining hole (27), and can be shifted with described vibration-damped component (20); The thickness of described absorption of vibrations portion (46) is less than the thickness of described vibration weakening portion (44), and the rear end of described sealing (41) and the front end of described vibration weakening portion (44) are interconnected, and described absorption of vibrations portion (46) is arranged on outside and the place ahead of described retaining hole (27).

2. connector according to claim 1, wherein, at least a portion of described absorption of vibrations portion (46) is contained in the described cavity (12).

3. connector according to claim 2, wherein, the external diameter of described absorption of vibrations portion (46) is less than the external diameter of described sealing (41), thus described absorption of vibrations portion (46) does not contact the interior perimeter surface of described cavity (12).

4. connector according to claim 1, wherein, described absorption of vibrations portion (46) has bellows-shaped.

5. connector according to claim 1, wherein, be formed with limited part (28,45) on the periphery of interior week of described retaining hole (27) and described vibration weakening portion (44), described limited part (28,45) is configured to: limit described vibration weakening portion (44) with respect to the displacement of described retaining hole (27) on the longitudinal direction of described electric wire (35) by concavo-convex cooperation.

6. connector comprises:

Inner housing (11), described inner housing (11) has cavity (12),

Shell body (20), described shell body (20) is assembled to described inner housing (11) in displaceable mode, and has the retaining hole (27) that is positioned at described cavity (12) rear;

Clamped nipple (30), described clamped nipple (30) are installed in the described cavity (12) of described inner housing (11);

Electric wire (35), described electric wire (35) is fixed to described clamped nipple (30), and exports to the position that is positioned at described cavity (12) rear and described retaining hole (27) rear; And

Be assemblied in the tubular rubber plug (40) on the described electric wire (35), described tubular rubber plug (40) has sealing (41), vibration weakening portion (44) and absorption of vibrations portion (46), described sealing (41) is fixedly mounted on the rear portion of described clamped nipple (30), and closely contact with the interior perimeter surface of described cavity (12), described vibration weakening portion (44) is assemblied in the described retaining hole (27) and can be shifted with described shell body (20), described absorption of vibrations portion (46) extends between described sealing (41) and described vibration weakening portion (44), and thickness is less than the thickness of described vibration weakening portion (44), and described absorption of vibrations portion (46) is arranged on outside and the place ahead of described retaining hole (27).

7. connector according to claim 6, wherein, at least a portion of described absorption of vibrations portion (46) is contained in the described cavity (12).

8. connector according to claim 7, wherein, the external diameter of described absorption of vibrations portion (46) is less than the external diameter of described sealing (41), thus described absorption of vibrations portion (46) does not contact the interior perimeter surface of described cavity (12).

9. connector according to claim 6, wherein, described absorption of vibrations portion (46) has bellows-shaped.

10. connector according to claim 6, wherein, restriction projection (28) on the interior week of described retaining hole (27) engages with confinement groove (45) on the periphery that is formed on described vibration weakening portion (44), to limit described vibration weakening portion (44) with respect to the displacement of described retaining hole (27) on the longitudinal direction of described electric wire (35).

11. connector according to claim 6, wherein, the axis that described inner housing (11) and shell body (20) can wind transverse to the longitudinal direction of described electric wire (35) is pivoted relative to each other.

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